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89c77ddcbe3c0e39045750891f0ac11036f29a94
terraform-provider-decort/internal/service/sdn/netobjgroups/flattens.go
Alexey Fetisov 89c77ddcbe git test
2026-06-19 17:45:18 +03:00

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/*
Copyright (c) 2019-2022 Digital Energy Cloud Solutions LLC. All Rights Reserved.
Authors:
Petr Krutov, <petr.krutov@digitalenergy.online>
Stanislav Solovev, <spsolovev@digitalenergy.online>
Kasim Baybikov, <kmbaybikov@basistech.ru>
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
/*
Terraform DECORT provider - manage resources provided by DECORT (Digital Energy Cloud
Orchestration Technology) with Terraform by Hashicorp.
Source code: https://repository.basistech.ru/BASIS/terraform-provider-decort
Please see README.md to learn where to place source code so that it
builds seamlessly.
Documentation: https://repository.basistech.ru/BASIS/terraform-provider-decort/wiki
*/
package netobjgroups
import (
"github.com/hashicorp/terraform-plugin-sdk/v2/helper/schema"
"repository.basistech.ru/BASIS/decort-golang-sdk/pkg/sdn/netobjgroups"
)
func flattenNetworkObjectGroupResource(d *schema.ResourceData, rec *netobjgroups.RecordNetObjGroup) {
d.Set("name", rec.Name)
d.Set("access_group_id", rec.AccessGroupID)
d.Set("access_group_name", rec.AccessGroupName)
d.Set("description", rec.Description)
d.Set("type", rec.Type)
d.Set("purpose", rec.Purpose)
d.Set("version_id", int(rec.VersionID))
d.Set("addresses", flattenAddresses(rec.Addresses))
d.Set("counters", flattenCounters(rec.Counters))
d.Set("l2_connection_ports", flattenL2ConnectionPorts(rec.L2ConnectionPorts))
d.Set("logical_ports", flattenLogicalPorts(rec.LogicalPorts))
d.Set("external_network_ports", flattenExternalNetworkPorts(rec.ExternalNetworkPorts))
d.Set("security_policies", flattenSecurityPolicies(rec.SecurityPolicies))
}
func flattenNetworkObjectGroupDataSource(d *schema.ResourceData, rec *netobjgroups.RecordNetObjGroup) {
d.Set("name", rec.Name)
d.Set("access_group_id", rec.AccessGroupID)
d.Set("access_group_name", rec.AccessGroupName)
d.Set("description", rec.Description)
d.Set("type", rec.Type)
d.Set("purpose", rec.Purpose)
d.Set("version_id", int(rec.VersionID))
d.Set("created_at", rec.CreatedAt)
d.Set("updated_at", rec.UpdatedAt)
d.Set("addresses", flattenAddresses(rec.Addresses))
d.Set("counters", flattenCounters(rec.Counters))
d.Set("l2_connection_ports", flattenL2ConnectionPorts(rec.L2ConnectionPorts))
d.Set("logical_ports", flattenLogicalPorts(rec.LogicalPorts))
d.Set("external_network_ports", flattenExternalNetworkPorts(rec.ExternalNetworkPorts))
d.Set("security_policies", flattenSecurityPolicies(rec.SecurityPolicies))
}
func flattenAddresses(addrs netobjgroups.NetAddresses) []map[string]interface{} {
res := make([]map[string]interface{}, 0, len(addrs))
for _, a := range addrs {
res = append(res, map[string]interface{}{
"id": a.ID,
"net_address_type": a.NetAddressType,
"ip_addr": a.IPAddr,
"ip_addr_range_end": a.IPAddrRangeEnd,
"ip_prefix": a.IPPrefix,
"mac_addr": a.MACAddr,
})
}
return res
}
func flattenCounters(c netobjgroups.Counter) []map[string]interface{} {
return []map[string]interface{}{
{
"addresses_count": int(c.AddressesCount),
"l2_connection_ports_count": int(c.L2ConnectionPortsCount),
"logical_ports_count": int(c.LogicalPortsCount),
"security_policies_count": int(c.SecurityPoliciesCount),
"security_rules_count": int(c.SecurityRulesCount),
},
}
}
func flattenStatus(s netobjgroups.Status) []map[string]interface{} {
return []map[string]interface{}{
{
"operation_status": s.OperationStatus,
"hypervisor_status": s.HypervisorStatus,
"hypervisors": flattenHypervisorsInfo(s.Hypervisors),
},
}
}
func flattenHypervisorsInfo(hvs netobjgroups.HypervisorsInfo) []map[string]interface{} {
res := make([]map[string]interface{}, 0, len(hvs))
for _, hv := range hvs {
res = append(res, map[string]interface{}{
"operation_status": hv.OperationStatus,
"name": hv.Name,
"display_name": hv.DisplayName,
"hypervisor_status": hv.HypervisorStatus,
"synced_at": hv.SyncedAt,
})
}
return res
}
func flattenLogicalPortAddresses(addrs netobjgroups.LogicalPortAddresses) []map[string]interface{} {
res := make([]map[string]interface{}, 0, len(addrs))
for _, a := range addrs {
res = append(res, map[string]interface{}{
"ip": a.IP,
"ip_type": a.IPType,
"is_discovered": a.IsDiscovered,
"is_primary": a.IsPrimary,
"mac": a.MAC,
"id": a.ID,
"logical_port_id": a.LogicalPortID,
"assigned_at": a.AssignedAt,
})
}
return res
}
func flattenBindings(b netobjgroups.Bindings) []map[string]interface{} {
return []map[string]interface{}{
{
"id": b.ID,
"segment_display_name": b.SegmentDisplayName,
"segment_id": b.SegmentID,
"port_security": b.PortSecurity,
"address_detection": b.AddressDetection,
"version_id": int(b.VersionID),
"created_at": b.CreatedAt,
"updated_at": b.UpdatedAt,
"logical_port_addresses": flattenLogicalPortAddresses(b.LogicalPortAddresses),
},
}
}
func flattenExcludeFirewall(e netobjgroups.ExcludeFirewall) []map[string]interface{} {
return []map[string]interface{}{
{
"exclusion_reason": e.ExclusionReason,
"logical_port_addresses_excluded": e.LogicalPortAddressesExcluded,
"logical_port_excluded": e.LogicalPortExcluded,
},
}
}
func flattenLabels(l netobjgroups.Labels) []map[string]interface{} {
return []map[string]interface{}{
{
"vm_id": l.VMID,
"vm_name": l.VMName,
},
}
}
func flattenLogicalPort(lp netobjgroups.LogicalPort) map[string]interface{} {
return map[string]interface{}{
"id": lp.ID,
"access_group_id": lp.AccessGroupID,
"access_group_name": lp.AccessGroupName,
"adapter_mac": lp.AdapterMAC,
"address_detection": lp.AddressDetection,
"description": lp.Description,
"created_at": lp.CreatedAt,
"display_name": lp.DisplayName,
"enabled": lp.Enabled,
"exclude_firewall": flattenExcludeFirewall(lp.ExcludeFirewall),
"external_network_id": lp.ExternalNetworkID,
"hypervisor": lp.Hypervisor,
"hypervisor_display_name": lp.HypervisorDisplayName,
"labels": flattenLabels(lp.Labels),
"live_migration_target_hv": lp.LiveMigrationTargetHV,
"status": flattenStatus(lp.Status),
"bindings": flattenBindings(lp.Bindings),
"unique_identifier": lp.UniqueIdentifier,
"updated_at": lp.UpdatedAt,
"version_id": int(lp.VersionID),
}
}
func flattenLogicalPorts(ports netobjgroups.LogicalPorts) []map[string]interface{} {
res := make([]map[string]interface{}, 0, len(ports))
for _, lp := range ports {
res = append(res, flattenLogicalPort(lp))
}
return res
}
func flattenL2ExternalNetwork(n netobjgroups.L2ExternalNetwork) []map[string]interface{} {
hypervisors := make([]interface{}, 0, len(n.Hypervisors))
for _, h := range n.Hypervisors {
hypervisors = append(hypervisors, h)
}
vlanTag := 0
if n.VLANTag != nil {
vlanTag = *n.VLANTag
}
return []map[string]interface{}{
{
"bridge_network_name": n.BridgeNetworkName,
"created_at": n.CreatedAt,
"description": n.Description,
"display_name": n.DisplayName,
"hypervisors": hypervisors,
"id": n.ID,
"updated_at": n.UpdatedAt,
"version_id": int(n.VersionID),
"vlan_tag": vlanTag,
},
}
}
func flattenL2ConnectionPorts(ports netobjgroups.L2ConnectionPorts) []map[string]interface{} {
res := make([]map[string]interface{}, 0, len(ports))
for _, p := range ports {
res = append(res, map[string]interface{}{
"id": p.ID,
"access_group_id": p.AccessGroupID,
"created_at": p.CreatedAt,
"updated_at": p.UpdatedAt,
"version_id": int(p.VersionID),
"l2_external_network": flattenL2ExternalNetwork(p.L2ExternalNetwork),
})
}
return res
}
func flattenIPv6Config(c netobjgroups.IPv6Config) []map[string]interface{} {
return []map[string]interface{}{
{
"address_mode": c.AddressMode,
"enable_periodic_ra": c.EnablePeriodicRA,
"interval_ra": int(c.IntervalRA),
"router_preference": c.RouterPreference,
},
}
}
func flattenRouterGatewayPort(r netobjgroups.RouterGateawayPort) []map[string]interface{} {
return []map[string]interface{}{
{
"created_at": r.CreatedAt,
"description": r.Description,
"id": r.ID,
"router_display_name": r.RouterDisplayName,
"router_id": r.RouterID,
"snat_enabled": r.SNATEnabled,
"updated_at": r.UpdatedAt,
},
}
}
func flattenSegment(s netobjgroups.Segment) []map[string]interface{} {
return []map[string]interface{}{
{
"access_group_id": s.AccessGroupID,
"access_group_name": s.AccessGroupName,
"created_at": s.CreatedAt,
"description": s.Description,
"display_name": s.DisplayName,
"enabled": s.Enabled,
"id": s.ID,
"subnet_v4": s.SubnetV4,
"subnet_v6": s.SubnetV6,
"updated_at": s.UpdatedAt,
"version_id": int(s.VersionID),
},
}
}
func flattenRouter(r netobjgroups.Router) []map[string]interface{} {
gateawayPorts := make([]map[string]interface{}, 0, len(r.GateawayPorts))
for _, gp := range r.GateawayPorts {
gateawayPorts = append(gateawayPorts, map[string]interface{}{
"created_at": gp.CreatedAt,
"description": gp.Description,
"external_l4_port_max": int(gp.ExternalL4PortMax),
"external_l4_port_min": int(gp.ExternalL4PortMin),
"id": gp.ID,
"snat_enabled": gp.SNATEnabled,
"status": flattenStatus(gp.Status),
"updated_at": gp.UpdatedAt,
"version_id": int(gp.VersionID),
})
}
policies := make([]map[string]interface{}, 0, len(r.Policies))
for _, pol := range r.Policies {
nextIPv4 := make([]interface{}, 0, len(pol.NextIPv4Address))
for _, ip := range pol.NextIPv4Address {
nextIPv4 = append(nextIPv4, ip)
}
nextIPv6 := make([]interface{}, 0, len(pol.NextIPv6Address))
for _, ip := range pol.NextIPv6Address {
nextIPv6 = append(nextIPv6, ip)
}
policies = append(policies, map[string]interface{}{
"action": pol.Action,
"created_at": pol.CreatedAt,
"display_name": pol.DisplayName,
"enabled": pol.Enabled,
"id": pol.ID,
"match": pol.Match,
"next_ipv4_address": nextIPv4,
"next_ipv6_address": nextIPv6,
"priority": pol.Priority,
"updated_at": pol.UpdatedAt,
"version_id": int(pol.VersionID),
})
}
ports := make([]map[string]interface{}, 0, len(r.Port))
for _, port := range r.Port {
ports = append(ports, map[string]interface{}{
"created_at": port.CreatedAt,
"description": port.Description,
"enabled": port.Enabled,
"id": port.ID,
"ipv4_address": port.IPv4Address,
"ipv6_address": port.IPv6Address,
"ipv6_config": flattenIPv6Config(port.IPv6Config),
"mac": port.MAC,
"segment_id": port.SegmentID,
"segment": flattenSegment(port.Segment),
"status": flattenStatus(port.Status),
"updated_at": port.UpdatedAt,
"version_id": int(port.VersionID),
})
}
return []map[string]interface{}{
{
"access_group_id": r.AccessGroupID,
"access_group_name": r.AccessGroupName,
"created_at": r.CreatedAt,
"description": r.Description,
"display_name": r.DisplayName,
"enabled": r.Enabled,
"gateaway_ports": gateawayPorts,
"id": r.ID,
"policies": policies,
"ports": ports,
"status": flattenStatus(r.Status),
"updated_at": r.UpdatedAt,
"version_id": int(r.VersionID),
},
}
}
func flattenFloatingIP(f netobjgroups.FloatingIP) []map[string]interface{} {
return []map[string]interface{}{
{
"access_group_id": f.AccessGroupID,
"access_group_name": f.AccessGroupName,
"created_at": f.CreatedAt,
"updated_at": f.UpdatedAt,
"version_id": int(f.VersionID),
"logical_port": []map[string]interface{}{flattenLogicalPort(f.LogicalPort)},
"router": flattenRouter(f.Router),
},
}
}
func flattenExternalNetworkPortFields(ports netobjgroups.ExternalNetworkPortsField) []map[string]interface{} {
res := make([]map[string]interface{}, 0, len(ports))
for _, p := range ports {
res = append(res, map[string]interface{}{
"access_group_id": p.AccessGroupID,
"access_group_name": p.AccessGroupName,
"comment": p.Comment,
"display_name": p.DisplayName,
"enabled": p.Enabled,
"ipv4": p.IPv4,
"ipv6": p.IPv6,
"ipv6_config": flattenIPv6Config(p.IPv6Config),
"mac": p.MAC,
"router_gateaway_port": flattenRouterGatewayPort(p.RouterGateawayPort),
"floating_ip": flattenFloatingIP(p.FloatingIP),
})
}
return res
}
func flattenExternalNetworkPorts(ports netobjgroups.ExternalNetworkPorts) []map[string]interface{} {
res := make([]map[string]interface{}, 0, len(ports))
for _, p := range ports {
hypervisors := make([]interface{}, 0, len(p.Hypervisors))
for _, h := range p.Hypervisors {
hypervisors = append(hypervisors, h)
}
res = append(res, map[string]interface{}{
"id": p.ID,
"access_group_id": p.AccessGroupID,
"access_group_name": p.AccessGroupName,
"bridge_network_name": p.BridgeNetworkName,
"comment": p.Comment,
"default_gateway_ipv4": p.DefaultGatewayIPv4,
"default_gateway_ipv6": p.DefaultGatewayIPv6,
"description": p.Description,
"enabled": p.Enabled,
"external_network_ports": flattenExternalNetworkPortFields(p.ExternalNetworkPorts),
"hypervisors": hypervisors,
"ipv4": p.IPv4,
"status": flattenStatus(p.Status),
"version_id": int(p.VersionID),
"subnet_v4": p.SubnetV4,
"subnet_v6": p.SubnetV6,
"created_at": p.CreatedAt,
"updated_at": p.UpdatedAt,
"vlan_tag": p.VLANTag,
"mac": p.MAC,
})
}
return res
}
func flattenAppliedNetObjectGroups(groups netobjgroups.AppliedNetObjectGroups) []map[string]interface{} {
res := make([]map[string]interface{}, 0, len(groups))
for _, g := range groups {
res = append(res, map[string]interface{}{
"id": g.ID,
"name": g.Name,
"version_id": int(g.VersionID),
})
}
return res
}
func flattenSecurityRules(rules netobjgroups.SecurityRules) []map[string]interface{} {
res := make([]map[string]interface{}, 0, len(rules))
for _, r := range rules {
srcNetObj := []map[string]interface{}{}
if r.SourceNetObject != nil {
srcNetObj = []map[string]interface{}{
{
"display_name": r.SourceNetObject.DisplayName,
"net_address_pool_id": r.SourceNetObject.NetAddressPoolID,
"net_object_group_id": r.SourceNetObject.NetObjectGroupID,
},
}
}
dstNetObj := []map[string]interface{}{}
if r.DestinationNetObject != nil {
dstNetObj = []map[string]interface{}{
{
"display_name": r.DestinationNetObject.DisplayName,
"net_address_pool_id": r.DestinationNetObject.NetAddressPoolID,
"net_object_group_id": r.DestinationNetObject.NetObjectGroupID,
},
}
}
filter := []map[string]interface{}{}
if r.Filter != nil {
tcpDstPorts := make([]interface{}, 0, len(r.Filter.Filters.TCPDstPorts))
for _, p := range r.Filter.Filters.TCPDstPorts {
tcpDstPorts = append(tcpDstPorts, p)
}
udpDstPorts := make([]interface{}, 0, len(r.Filter.Filters.UDPDstPorts))
for _, p := range r.Filter.Filters.UDPDstPorts {
udpDstPorts = append(udpDstPorts, p)
}
filter = []map[string]interface{}{
{
"name": r.Filter.Name,
"filters": []map[string]interface{}{
{
"all": r.Filter.Filters.All,
"arp": r.Filter.Filters.ARP,
"dhcp": r.Filter.Filters.DHCP,
"expression": r.Filter.Filters.Expression,
"icmp": r.Filter.Filters.ICMP,
"ip": r.Filter.Filters.IP,
"ip_v4": r.Filter.Filters.IPv4,
"ip_v6": r.Filter.Filters.IPv6,
"keep_opened_sessions": r.Filter.Filters.KeepOpenedSessions,
"nd": r.Filter.Filters.ND,
"tcp": r.Filter.Filters.TCP,
"tcp_dst_ports": tcpDstPorts,
"udp": r.Filter.Filters.UDP,
"udp_dst_ports": udpDstPorts,
},
},
},
}
}
res = append(res, map[string]interface{}{
"access_group_id": r.AccessGroupID,
"action": r.Action,
"description": r.Description,
"destination_net_object": dstNetObj,
"direction": r.Direction,
"display_name": r.DisplayName,
"enabled": r.Enabled,
"filter": filter,
"id": r.ID,
"log_enabled": r.LogEnabled,
"log_name": r.LogName,
"log_severity": r.LogSeverity,
"priority": r.Priority,
"security_policy_id": r.SecurityPolicyID,
"source_net_object": srcNetObj,
"statistics_enabled": r.StatisticsEnabled,
"type": r.Type,
"version_id": int(r.VersionID),
})
}
return res
}
func flattenSecurityPolicies(policies netobjgroups.SecurityPolicies) []map[string]interface{} {
res := make([]map[string]interface{}, 0, len(policies))
for _, p := range policies {
res = append(res, map[string]interface{}{
"access_group_id": p.AccessGroupID,
"access_group_name": p.AccessGroupName,
"applied_net_object_groups": flattenAppliedNetObjectGroups(p.AppliedNetObjectGroups),
"created_at": p.CreatedAt,
"description": p.Description,
"display_name": p.DisplayName,
"enabled": p.Enabled,
"end_priority": int(p.EndPriority),
"id": p.ID,
"security_rules": flattenSecurityRules(p.SecurityRules),
"start_priority": int(p.StartPriority),
"status": flattenStatus(p.Status),
"type": p.Type,
"version_id": int(p.VersionID),
"updated_at": p.UpdatedAt,
})
}
return res
}
func flattenNetworkObjectGroupList(list *netobjgroups.NetObjGroupList) []map[string]interface{} {
if list == nil {
return []map[string]interface{}{}
}
res := make([]map[string]interface{}, 0, len(list.Objects))
for _, v := range list.Objects {
res = append(res, map[string]interface{}{
"id": v.ID,
"name": v.Name,
"access_group_id": v.AccessGroupID,
"access_group_name": v.AccessGroupName,
"description": v.Description,
"type": v.Type,
"purpose": v.Purpose,
"version_id": int(v.VersionID),
"created_at": v.CreatedAt,
"updated_at": v.UpdatedAt,
"addresses": flattenAddresses(v.Addresses),
"counters": flattenCounters(v.Counters),
"l2_connection_ports": flattenL2ConnectionPorts(v.L2ConnectionPorts),
"logical_ports": flattenLogicalPorts(v.LogicalPorts),
"external_network_ports": flattenExternalNetworkPorts(v.ExternalNetworkPorts),
"security_policies": flattenSecurityPolicies(v.SecurityPolicies),
})
}
return res
}
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